Torpedo Design Concept Storage Server for Open Rack Hardware v0.3 ST-draco-chimera-0.3 Author: Conor Malone, VP Engineering, Hyve Solutions
1 Scope This document discusses the requirements and specifications for implementing an Open Compute Project storage server compatible with Open Rack. 2 Contents 1 Scope... 2 2 Contents... 2 3 Overview... 3 3.1 License... 3 4 Specifications... 4 5 System View... 4 6 Intel Expander RES2SV240... 5 6.1 Intel Expander RES2SV240 Specifications... 5 2 January 15, 2012
Open Compute Project Torpedo Design Concept 3 Overview When data center design and hardware design move in concert, they can improve efficiency and reduce power consumption. To this end, the Open Compute Project is a set of technologies that reduces energy consumption and cost, increases reliability and choice in the marketplace, and simplifies operations and maintenance. One key objective is openness the project is starting with the opening of the specifications and mechanical designs for the major components of a data center, and the efficiency results achieved at facilities using Open Compute technologies. One component of this project is a concept storage server that integrates with Open Rack, controlled by a standard SAS expander card. The Torpedo Design Concept is 2xOpenU high and can accommodate 15 3.5" drives arranged in a 3 x 5 array. Its form factor is compatible with the Open Rack compute node and designed to occupy similar space in an Open Rack innovation zone. Initial design target is direct cabled to an off the shelf SAS expander. The design is capable of accommodating integrated backplanes as a future design option. 3.1 License As of April 7, 2011, the following persons or entities have made this Specification available under the Open Web Foundation Final Specification Agreement (OWFa 1.0), which is available at http://www.openwebfoundation.org/legal/the-owf-1-0-agreements/owfa-1-0 Facebook, Inc. You can review the signed copies of the Open Web Foundation Agreement Version 1.0 for this Specification at http://opencompute.org/licensing/, which may also include additional parties to those listed above. Your use of this Specification may be subject to other third party rights. THIS SPECIFICATION IS PROVIDED "AS IS." The contributors expressly disclaim any warranties (express, implied, or otherwise), including implied warranties of merchantability, noninfringement, fitness for a particular purpose, or title, related to the Specification. The entire risk as to implementing or otherwise using the Specification is assumed by the Specification implementer and user. IN NO EVENT WILL ANY PARTY BE LIABLE TO ANY OTHER PARTY FOR LOST PROFITS OR ANY FORM OF INDIRECT, SPECIAL, INCIDENTAL, OR CONSEQUENTIAL DAMAGES OF ANY CHARACTER FROM ANY CAUSES OF ACTION OF ANY KIND WITH RESPECT TO THIS SPECIFICATION OR ITS GOVERNING AGREEMENT, WHETHER BASED ON BREACH OF CONTRACT, TORT (INCLUDING NEGLIGENCE), OR OTHERWISE, AND WHETHER OR NOT THE OTHER PARTY HAS BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. http://opencompute.org 3
4 Specifications Front o Two external mini-sas connectors o Management port (TBD) Rear o One bus bar connector, C5313-07301-00107 from Methode Internal o 15 3.5" drives arranged in a 3 x 5 array o Intel Expander RES2SV240 o Two 80 mm fans o PCB for power distribution, fan control, and chassis management (TBD) 5 System View Figure 1 System Overview 4 January 15, 2012
4 PCIe x4 connector with power pins to mount and power from a PCIe slot (if desired) 5 RA 4 Pin power connector to power from a cable (if desired) 6 Mounting holes for attaching to a Open chassis Compute or duct wall Project (if desired) Torpedo Design Concept 7 Six SAS cables with SFF8087 connectors at each end and designed to allow tight bend radii are included for ease of procurement and integration simplicity (not shown) 6 Intel Expander RES2SV240 6.6 6 5 2 1 2 PCIe 2.0 connector located on underside of module 2.5 4 Figure 2 SAS Expander Board For more information on the Intel Integrated RAID Expander RES2SV240, visit: www.intel.com/go/raid 1. LSI For LSISAS2x24 more information SAS/SATA on Expander how to make to enable the Intel 24-ports RAID Expander at 3 or 6Gb/s RES2SV240 part 2. Six of your SFF8087 server SAS/SATA environment, connectors please for contact attaching an Intel up to Channel 24 targets Partner or initiators Program 3. Low participant. Profile, MD2 depth for use in low profile slots or chassis mount 4. PCIe x4 connector with power pins to mount and power from a PCIe slot (if desired) 5. RA 4 Pin power connector to power from a cable (if desired) 6. Mounting holes for attaching to a chassis or duct wall (if desired) INFORMATION IN THIS DOCUMENT IS PROVIDED IN CONNECTION WITH INTEL PRODUCTS. NO LICENSE, EXPRESS OR IMPLIED, BY ESTOPPEL OR OTHERWISE, TO ANY INTELLECTUAL AS PROVIDED IN INTEL S TERMS AND CONDITIONS OF SALE FOR SUCH PRODUCTS, INTEL ASSUMES NO LIABILITY WHATSOEVER AND INTEL DISCLAIMS ANY EXPRESS OR IMPLIED WA INCLUDING LIABILITY OR WARRANTIES RELATING TO FITNESS FOR A PARTICULAR PURPOSE, MERCHANTABILITY, OR INFRINGEMENT OF ANY PATENT, COPYRIGHT OR OTHER INTELL 6.1 Intel Expander RES2SV240 Specifications UNLESS OTHERWISE AGREED IN WRITING BY INTEL, THE INTEL PRODUCTS ARE NOT DESIGNED NOR INTENDED FOR ANY APPLICATION IN WHICH THE FAILURE OF THE INTEL PRODU DEATH MAY OCCUR. Processor Operating voltage +12V Interface to host SATA bus speed SAS/SATA ports Firmware LSI LSISAS2x24 SAS/SATA Expander PCIe x4 connector (power only) as alternative to RA 4 pin power connector Up to 6 Gbps per port, point-to-point 6 x4 internal ports, for both initiator and target devices 8 MB in reflashable flash ROM Compatible devices 2.5-inch and 3.5-inch SAS 2.0 or SATA drives Enclosure management Non disk devices including expanders Can support drives of mixed capacity SAS 2.0 host controllers (RAID or Non-RAID) SGPIO http://opencompute.org 5